Section 55

EurekaMag Full Text Articles Chapter 54,544


Suh, D.; Yasuoka, K. 2011: Nanoparticle growth analysis by molecular dynamics: spherical seed. Journal of Physical Chemistry. B 115(36): 10631-10645
Munnik, P.; Velthoen, M.E.Z.; de Jongh, P.E.; de Jong, K.P.; Gommes, C.J. 2014: Nanoparticle growth in supported nickel catalysts during methanation reaction--larger is better. Angewandte Chemie 53(36): 9493-9497
Liao, H-Gang.; Zherebetskyy, D.; Xin, H.; Czarnik, C.; Ercius, P.; Elmlund, H.; Pan, M.; Wang, L-Wang.; Zheng, H. 2014: Nanoparticle growth. Facet development during platinum nanocube growth. Science 345(6199): 916-919
Moyano, D.F.; Goldsmith, M.; Solfiell, D.J.; Landesman-Milo, D.; Miranda, O.R.; Peer, D.; Rotello, V.M. 2012: Nanoparticle hydrophobicity dictates immune response. Journal of the American Chemical Society 134(9): 3965-3967
Parikesit, G.O.F.; Guasto, J.S.; Girardo, S.; Mele, E.; Stabile, R.; Pisignano, D.; Lindken, R.; Westerweel, J. 2009: Nanoparticle image velocimetry at topologically structured surfaces. Biomicrofluidics 3(4): 44111
Mathew, N.D.; Mathew, M.D.; Surawski, P.P.T. 2014: Nanoparticle imaging and diagnostic of Caenorhabditis elegans intracellular pH. Analytical Biochemistry 450: 52-56
Eisner, B.H.; Feldman, A.S. 2009: Nanoparticle imaging for genitourinary cancers. Cancer Biomarkers: Section a of Disease Markers 5(2): 75-79
Azubel, M.; Koivisto, J.; Malola, S.; Bushnell, D.; Hura, G.L.; Koh, A.Leen.; Tsunoyama, H.; Tsukuda, T.; Pettersson, M.; Häkkinen, H.; Kornberg, R.D. 2014: Nanoparticle imaging. Electron microscopy of gold nanoparticles at atomic resolution. Science 345(6199): 909-912
Heinze, B.C.; Yoon, J-Yeol. 2011: Nanoparticle immunoagglutination Rayleigh scatter assay to complement microparticle immunoagglutination Mie scatter assay in a microfluidic device. Colloids and Surfaces. B Biointerfaces 85(2): 168-173
Tschulik, K.; Compton, R.G. 2014: Nanoparticle impacts reveal magnetic field induced agglomeration and reduced dissolution rates. Physical Chemistry Chemical Physics: Pccp 16(27): 13909-13913
Lees, J.C.; Ellison, J.; Batchelor-McAuley, C.; Tschulik, K.; Damm, C.; Omanović, D.; Compton, R.G. 2013: Nanoparticle impacts show high-ionic-strength citrate avoids aggregation of silver nanoparticles. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 14(17): 3895-3897
Jallouk, A.P.; Moley, K.H.; Omurtag, K.; Hu, G.; Lanza, G.M.; Wickline, S.A.; Hood, J.L. 2014: Nanoparticle incorporation of melittin reduces sperm and vaginal epithelium cytotoxicity. Plos one 9(4): E95411
Elbez, R.; McNaughton, B.H.; Patel, L.; Pienta, K.J.; Kopelman, R. 2011: Nanoparticle induced cell magneto-rotation: monitoring morphology, stress and drug sensitivity of a suspended single cancer cell. Plos one 6(12): E28475
Roy, S.; Basak, S.; Dasgupta, A.Kr. 2010: Nanoparticle induced conformational change in DNA and chirality of silver nanoclusters. Journal of Nanoscience and Nanotechnology 10(2): 819-825
Gupta, M.; Satpathy, I.; Roy, A.; Pratibha, R. 2010: Nanoparticle induced director distortion and disorder in liquid crystal-nanoparticle dispersions. Journal of Colloid and Interface Science 352(2): 292-298
Nogueira, D.Rubert.; Rolim, C.M.Bueno.; Farooqi, A.Ahmad. 2014: Nanoparticle induced oxidative stress in cancer cells: adding new pieces to an incomplete jigsaw puzzle. Asian Pacific Journal of Cancer Prevention: Apjcp 15(12): 4739-4743
Tiwari, V.K.; Shripathi, T.; Lalla, N.P.; Maiti, P. 2012: Nanoparticle induced piezoelectric, super toughened, radiation resistant, multi-functional nanohybrids. Nanoscale 4(1): 167-175
Helgesen, G.; Svåsand, E.; Skjeltorp, A.T. 2008: Nanoparticle induced self-assembly. Journal of Physics. Condensed Matter: An Institute of Physics Journal 20(20): 204127
Rodríguez-Cruz, I.M.; Domínguez-Delgado, C.L.; Escobar-Chávez, J.J.; Leyva-Gómez, G.; Ganem-Quintanar, A.; Quintanar-Guerrero, D. 2009: Nanoparticle infiltration to prepare solvent-free controlled drug delivery systems. International Journal of Pharmaceutics 371(1-2): 177-181
Knuckles, T.L.; Yi, J.; Frazer, D.G.; Leonard, H.D.; Chen, B.T.; Castranova, V.; Nurkiewicz, T.R. 2012: Nanoparticle inhalation alters systemic arteriolar vasoreactivity through sympathetic and cyclooxygenase-mediated pathways. Nanotoxicology 6(7): 724-735
Nurkiewicz, T.R.; Porter, D.W.; Hubbs, A.F.; Cumpston, J.L.; Chen, B.T.; Frazer, D.G.; Castranova, V. 2008: Nanoparticle inhalation augments particle-dependent systemic microvascular dysfunction. Particle and Fibre Toxicology 5: 1
LeBlanc, A.J.; Moseley, A.M.; Chen, B.T.; Frazer, D.; Castranova, V.; Nurkiewicz, T.R. 2010: Nanoparticle inhalation impairs coronary microvascular reactivity via a local reactive oxygen species-dependent mechanism. Cardiovascular Toxicology 10(1): 27-36
LeBlanc, A.J.; Cumpston, J.L.; Chen, B.T.; Frazer, D.; Castranova, V.; Nurkiewicz, T.R. 2009: Nanoparticle inhalation impairs endothelium-dependent vasodilation in subepicardial arterioles. Journal of Toxicology and Environmental Health. Part a 72(24): 1576-1584
Lee, C.K.; Hua, C.C. 2010: Nanoparticle interaction potentials constructed by multiscale computation. Journal of Chemical Physics 132(22): 224904
Leroueil, P.R.; Hong, S.; Mecke, A.; Baker, J.R.; Orr, B.G.; Banaszak Holl, M.M. 2007: Nanoparticle interaction with biological membranes: does nanotechnology present a Janus face?. Accounts of Chemical Research 40(5): 335-342
Harishchandra, R.Kumar.; Saleem, M.; Galla, H-Joachim. 2010: Nanoparticle interaction with model lung surfactant monolayers. Journal of the Royal Society Interface 7 Suppl. 1: S15-S26
Aggarwal, P.; Hall, J.B.; McLeland, C.B.; Dobrovolskaia, M.A.; McNeil, S.E. 2009: Nanoparticle interaction with plasma proteins as it relates to particle biodistribution, biocompatibility and therapeutic efficacy. Advanced Drug Delivery Reviews 61(6): 428-437
Kah, J.Chen.Yong.; Yeo, E.Li.Ling.; Koh, W.Ling.; Poinard, B.Elodie.Ariane.; Neo, D.Jing.Hui. 2013: Nanoparticle interface to biology: applications in probing and modulating biological processes. Critical Reviews in Biomedical Engineering 41(4-5): 323-341
Borchard, G.; Flühmann, B.; Mühlebach, S. 2012: Nanoparticle iron medicinal products - Requirements for approval of intended copies of non-biological complex drugs (NBCD) and the importance of clinical comparative studies. Regulatory Toxicology and Pharmacology: Rtp 64(2): 324-328
Xiang, L.; Chan, R.W.S.; Ng, E.H.Y.; Yeung, W.S.B. 2014: Nanoparticle labeling identifies slow cycling human endometrial stromal cells. Stem Cell Research and Therapy 5(4): 84
Chen, B.; Hu, B.; Jiang, P.; He, M.; Peng, H.; Zhang, X. 2011: Nanoparticle labelling-based magnetic immunoassay on chip combined with electrothermal vaporization-inductively coupled plasma mass spectrometry for the determination of carcinoembryonic antigen in human serum. Analyst 136(19): 3934-3942
Csaki, A.; Jahn, F.; Latka, I.; Henkel, T.; Malsch, D.; Schneider, T.; Schröder, K.; Schuster, K.; Schwuchow, A.; Spittel, R.; Zopf, D.; Fritzsche, W. 2010: Nanoparticle layer deposition for plasmonic tuning of microstructured optical fibers. Small 6(22): 2584-2589
Duskey, J.T.; Rice, K.G. 2014: Nanoparticle ligand presentation for targeting solid tumors. Aaps Pharmscitech 15(5): 1345-1354
Hossain, M.; Su, M. 2012: Nanoparticle location and material dependent dose enhancement in X-ray radiation therapy. Journal of Physical Chemistry. C Nanomaterials and Interfaces 116(43): 23047-23052
Wei, N.; Wang, H-Qiong.; Zheng, J-Cheng. 2012: Nanoparticle manipulation by thermal gradient. Nanoscale Research Letters 7(1): 154
Kolanjiyil, A.V.; Kleinstreuer, C. 2013: Nanoparticle mass transfer from lung airways to systemic regions--Part I: Whole-lung aerosol dynamics. Journal of Biomechanical Engineering 135(12): 121003
Kolanjiyil, A.V.; Kleinstreuer, C. 2013: Nanoparticle mass transfer from lung airways to systemic regions--Part II: Multi-compartmental modeling. Journal of Biomechanical Engineering 135(12): 121004
Malmo, J.; Sandvig, A.; Vårum, K.M.; Strand, S.P. 2013: Nanoparticle mediated P-glycoprotein silencing for improved drug delivery across the blood-brain barrier: a siRNA-chitosan approach. Plos one 8(1): E54182
Nagpal, K.; Singh, S.Kumar.; Mishra, D.Nath. 2012: Nanoparticle mediated brain targeted delivery of gallic acid: in vivo behavioral and biochemical studies for improved antioxidant and antidepressant-like activity. Drug Delivery 19(8): 378-391
Nagpal, K.; Singh, S.K.; Mishra, D.N. 2013: Nanoparticle mediated brain targeted delivery of gallic acid: in vivo behavioral and biochemical studies for protection against scopolamine-induced amnesia. Drug Delivery 20(3-4): 112-119
Roy, A.; Singh, M.Smriti.; Upadhyay, P.; Bhaskar, S. 2013: Nanoparticle mediated co-delivery of paclitaxel and a TLR-4 agonist results in tumor regression and enhanced immune response in the tumor microenvironment of a mouse model. International Journal of Pharmaceutics 445(1-2): 171-180
Zhang, L.; Zhou, Y.; Li, G.; Zhao, Y.; Gu, X.; Yang, Y. 2014: Nanoparticle mediated controlled delivery of dual growth factors. Science China. Life Sciences 57(2): 256-262
Beisner, J.; Dong, M.; Taetz, S.; Nafee, N.; Griese, E-Ulrich.; Schaefer, U.; Lehr, C-Michael.; Klotz, U.; Mürdter, T.E. 2010: Nanoparticle mediated delivery of 2'-O-methyl-RNA leads to efficient telomerase inhibition and telomere shortening in human lung cancer cells. Lung Cancer 68(3): 346-354
Burford, C.D.; Bhattacharyya, K.D.; Boriraksantikul, N.; Whiteside, P.J.D.; Robertson, B.P.; Peth, S.M.; Islam, N.E.; Viator, J.A. 2013: Nanoparticle mediated thermal ablation of breast cancer cells using a nanosecond pulsed electric field. IEEE Transactions on Nanobioscience 12(2): 112-118
Wu, B.; Tillman, P.; McCue, S.W.; Hill, J.M. 2009: Nanoparticle melting as a stefan moving boundary problem. Journal of Nanoscience and Nanotechnology 9(2): 885-888
Baumgardner, W.J.; Yu, Y.; Hovden, R.; Honrao, S.; Hennig, R.G.; Abruña, Héctor.D.; Muller, D.; Hanrath, T. 2014: Nanoparticle metamorphosis: an in situ high-temperature transmission electron microscopy study of the structural evolution of heterogeneous Au:Fe2O3 nanoparticles. Acs Nano 8(5): 5315-5322
Candeloro, P.; Tirinato, L.; Malara, N.; Fregola, A.; Casals, E.; Puntes, V.; Perozziello, G.; Gentile, F.; Coluccio, M.Laura.; Das, G.; Liberale, C.; De Angelis, F.; Di Fabrizio, E. 2011: Nanoparticle microinjection and Raman spectroscopy as tools for nanotoxicology studies. Analyst 136(21): 4402-4408
Dähne, L. 2009: Nanoparticle missiles from exploding polyelectrolyte capsules. Angewandte Chemie 48(23): 4106-4108
Haase, M.F.; Grigoriev, D.; Moehwald, H.; Tiersch, B.; Shchukin, D.G. 2011: Nanoparticle modification by weak polyelectrolytes for pH-sensitive pickering emulsions. Langmuir 27(1): 74-82
Guo, H.; Bourret, G.; Corbierre, M.K.; Rucareanu, S.; Lennox, R.Bruce.; Laaziri, K.; Piche, L.; Sutton, M.; Harden, J.L.; Leheny, R.L. 2009: Nanoparticle motion within glassy polymer melts. Physical Review Letters 102(7): 075702
Batson, P.E.; Reyes-Coronado, A.; Barrera, R.G.; Rivacoba, A.; Echenique, P.M.; Aizpurua, J. 2012: Nanoparticle movement: plasmonic forces and physical constraints. Ultramicroscopy 123: 50-58
Hennig, R.; Pollinger, K.; Veser, A.; Breunig, M.; Goepferich, A. 2014: Nanoparticle multivalency counterbalances the ligand affinity loss upon PEGylation. Journal of Controlled Release: Official Journal of the Controlled Release Society 194: 20-27
Agarwal, P.; Chopra, M.; Archer, L.A. 2011: Nanoparticle netpoints for shape-memory polymers. Angewandte Chemie 50(37): 8670-8673
Zimbovskaya, N.A.; Pederson, M.R.; Blum, A.S.; Ratna, B.R.; Allen, R. 2009: Nanoparticle networks as chemoselective sensing devices. Journal of Chemical Physics 130(9): 094702
Scotognella, F.; Puzzo, D.P.; Monguzzi, A.; Wiersma, D.S.; Maschke, D.; Tubino, R.; Ozin, G.A. 2009: Nanoparticle one-dimensional photonic-crystal dye laser. Small 5(18): 2048-2052
Sknepnek, R.; Anderson, J.A.; Lamm, M.H.; Schmalian, Jörg.; Travesset, A. 2008: Nanoparticle ordering via functionalized block copolymers in solution. Acs Nano 2(6): 1259-1265
Curk, T.; Martinez-Veracoechea, F.J.; Frenkel, D.; Dobnikar, J. 2014: Nanoparticle organization in sandwiched polymer brushes. Nano Letters 14(5): 2617-2622
Snell, K.E.; Stéphant, N.; Pansu, R.B.; Audibert, J-Frédéric.; Lagugné-Labarthet, Fçois.; Ishow, Eéna. 2014: Nanoparticle organization through photoinduced bulk mass transfer. Langmuir 30(10): 2926-2935
Lagzi, Ián.; Kowalczyk, B.; Wang, D.; Grzybowski, B.A. 2010: Nanoparticle oscillations and fronts. Angewandte Chemie 49(46): 8616-8619
Swyer, T.W.; Strom, J.; Larson, D.F. 2014: Nanoparticle oxygen delivery to the ischemic heart. Perfusion 29(6): 539-543
Corredor, E.; Testillano, P.S.; Coronado, Mía-José.; González-Melendi, P.; Fernández-Pacheco, R.; Marquina, C.; Ibarra, M.Ricardo.; de la Fuente, Jús.M.; Rubiales, D.; Pérez-de-Luque, A.; Risueño, Mía-Carmen. 2009: Nanoparticle penetration and transport in living pumpkin plants: in situ subcellular identification. Bmc Plant Biology 9: 45
Yang, M.; Lai, S.K.; Yu, T.; Wang, Y-Ying.; Happe, C.; Zhong, W.; Zhang, M.; Anonuevo, A.; Fridley, C.; Hung, A.; Fu, J.; Hanes, J. 2014: Nanoparticle penetration of human cervicovaginal mucus: the effect of polyvinyl alcohol. Journal of Controlled Release: Official Journal of the Controlled Release Society 192: 202-208
Rengasamy, S.; Eimer, B.C. 2012: Nanoparticle penetration through filter media and leakage through face seal interface of N95 filtering facepiece respirators. Annals of Occupational Hygiene 56(5): 568-580
Song, B.; Yuan, H.; Pham, S.V.; Jameson, C.J.; Murad, S. 2012: Nanoparticle permeation induces water penetration, ion transport, and lipid flip-flop. Langmuir 28(49): 16989-17000
Bouzier-Sore, A-Karine.; Ribot, E.; Bouchaud, Véronique.; Miraux, S.; Duguet, E.; Mornet, Séphane.; Clofent-Sanchez, Gèle.; Franconi, J-Michel.; Voisin, P. 2010: Nanoparticle phagocytosis and cellular stress: involvement in cellular imaging and in gene therapy against glioma. Nmr in Biomedicine 23(1): 88-96
Neubauer, A.M.; Sim, H.; Winter, P.M.; Caruthers, S.D.; Williams, T.A.; Robertson, J.David.; Sept, D.; Lanza, G.M.; Wickline, S.A. 2008: Nanoparticle pharmacokinetic profiling in vivo using magnetic resonance imaging. Magnetic Resonance in Medicine 60(6): 1353-1361
Pedersen, T.G.; Jung, J.; Søndergaard, T.; Pedersen, K. 2011: Nanoparticle plasmon resonances in the near-static limit. Optics Letters 36(5): 713-715
Ueno, K.; Juodkazis, S.; Shibuya, T.; Yokota, Y.; Mizeikis, V.; Sasaki, K.; Misawa, H. 2008: Nanoparticle plasmon-assisted two-photon polymerization induced by incoherent excitation source. Journal of the American Chemical Society 130(22): 6928-6929
Hägglund, C.; Kasemo, B. 2009: Nanoparticle plasmonics for 2D-photovoltaics: mechanisms, optimization, and limits. Optics Express 17(14): 11944-11957
Tada, D.B.; Rossi, L.M.; Leite, C.A.P.; Itri, R.; Baptista, M.S. 2010: Nanoparticle platform to modulate reaction mechanism of phenothiazine photosensitizers. Journal of Nanoscience and Nanotechnology 10(5): 3100-3108
Fujii, R.; Guo, J.; Klepp, Jürgen.; Pruner, C.; Fally, M.; Tomita, Y. 2014: Nanoparticle polymer composite volume gratings incorporating chain transfer agents for holography and slow-neutron optics. Optics Letters 39(12): 3453-3456
Niemann, Börn.; Sundmacher, K. 2010: Nanoparticle precipitation in microemulsions: Population balance model and identification of bivariate droplet exchange kernel. Journal of Colloid and Interface Science 342(2): 361-371
Niemann, Börn.; Veit, P.; Sundmacher, K. 2008: Nanoparticle precipitation in reverse microemulsions: particle formation dynamics and tailoring of particle size distributions. Langmuir 24(8): 4320-4328
Shenoi, M.M.; Shah, N.B.; Griffin, R.J.; Vercellotti, G.M.; Bischof, J.C. 2011: Nanoparticle preconditioning for enhanced thermal therapies in cancer. Nanomedicine 6(3): 545-563
Mossoba, M.M.; Al-Khaldi, S.F.; Schoen, B.; Yakes, B.Jean. 2010: Nanoparticle probes and mid-infrared chemical imaging for DNA microarray detection. Applied Spectroscopy 64(11): 1191-1198
Fukami, T.; Ishii, T.; Io, T.; Suzuki, N.; Suzuki, T.; Yamamoto, K.; Xu, J.; Ramamoorthy, A.; Tomono, K. 2009: Nanoparticle processing in the solid state dramatically increases the cell membrane permeation of a cholesterol-lowering drug, probucol. Molecular Pharmaceutics 6(3): 1029-1035
Van Landuyt, K.L.; Hellack, B.; Van Meerbeek, B.; Peumans, M.; Hoet, P.; Wiemann, M.; Kuhlbusch, T.A.J.; Asbach, C. 2014: Nanoparticle release from dental composites. Acta Biomaterialia 10(1): 365-374
Echegoyen, Y.; Nerín, C. 2013: Nanoparticle release from nano-silver antimicrobial food containers. Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association 62: 16-22
Guldiken, R.; Makaram, P.; Bakhtari, K.; Park, J.; Busnaina, A.A. 2007: Nanoparticle scanning and detection on flat and structured surfaces using fluorescence microscopy. Microscopy Research and Technique 70(6): 534-538
Pang, H.; Yang, H.; Guo, C.Xian.; Lu, J.; Li, C.Ming. 2012: Nanoparticle self-assembled hollow TiO2 spheres with well matching visible light scattering for high performance dye-sensitized solar cells. Chemical Communications 48(70): 8832-8834
Martín-García, B.; Velázquez, M.Mercedes. 2014: Nanoparticle self-assembly assisted by polymers: the role of shear stress in the nanoparticle arrangement of Langmuir and Langmuir-Blodgett films. Langmuir 30(2): 509-516
Xu, L.; Tremblay, M-Laurence.; Orrell, K.E.; Leclerc, Jérémie.; Meng, Q.; Liu, X-Qin.; Rainey, J.K. 2013: Nanoparticle self-assembly by a highly stable recombinant spider wrapping silk protein subunit. Febs Letters 587(19): 3273-3280
von Maltzahn, G.; Harris, T.J.; Park, J-Ho.; Min, D-Hee.; Schmidt, A.J.; Sailor, M.J.; Bhatia, S.N. 2007: Nanoparticle self-assembly gated by logical proteolytic triggers. Journal of the American Chemical Society 129(19): 6064-6065
Puchner, E.M.; Kufer, S.K.; Strackharn, M.; Stahl, S.W.; Gaub, H.E. 2008: Nanoparticle self-assembly on a DNA-scaffold written by single-molecule cut-and-paste. Nano Letters 8(11): 3692-3695
Nikolov, A.; Kondiparty, K.; Wasan, D. 2010: Nanoparticle self-structuring in a nanofluid film spreading on a solid surface. Langmuir 26(11): 7665-7670
Ali, M.E.; Hashim, U.; Mustafa, S.; Man, Y.B.Che.; Yusop, M.H.M.; Bari, M.F.; Islam, K.N.; Hasan, M.F. 2011: Nanoparticle sensor for label free detection of swine DNA in mixed biological samples. Nanotechnology 22(19): 195503
Ahrenkiel, S.P.; Yu, P.R.; Murphy, J.E.; Nedeljković, J.M.; Donohoe, B.S. 2008: Nanoparticle shape and configuration analysis by transmission electron tomography. Journal of Microscopy 230(Pt 3): 382-387
Jones, M.R.; Macfarlane, R.J.; Prigodich, A.E.; Patel, P.C.; Mirkin, C.A. 2011: Nanoparticle shape anisotropy dictates the collective behavior of surface-bound ligands. Journal of the American Chemical Society 133(46): 18865-18869
Huitink, D.; Kundu, S.; Park, C.; Mallick, B.; Huang, J.Z.; Liang, H. 2010: Nanoparticle shape evolution identified through multivariate statistics. Journal of Physical Chemistry. a 114(17): 5596-5600
Loverde, S.M.; Klein, M.L.; Discher, D.E. 2012: Nanoparticle shape improves delivery: rational coarse grain molecular dynamics (rCG-MD) of taxol in worm-like PEG-PCL micelles. Advanced Materials 24(28): 3823-3830
Secinti, K.Devrim.; Özalp, H.; Attar, A.; Sargon, M.F. 2011: Nanoparticle silver ion coatings inhibit biofilm formation on titanium implants. Journal of Clinical Neuroscience: Official Journal of the Neurosurgical Society of Australasia 18(3): 391-395
Wada, Y.; Totoki, S.; Watanabe, M.; Moriya, N.; Tsunazawa, Y.; Shimaoka, H. 2006: Nanoparticle size analysis with relaxation of induced grating by dielectrophoresis. Optics Express 14(12): 5755-5764
Lopes, A.Catarina.; Carabineiro, S.A.C.; Pereira, M.Fernando.R.; Botelho, G.; Lanceros-Mendez, S. 2013: Nanoparticle size and concentration dependence of the electroactive phase content and electrical and optical properties of Ag/poly(vinylidene fluoride) composites. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 14(9): 1926-1933
Dobrovolskaia, M.A.; Patri, A.K.; Simak, J.; Hall, J.B.; Semberova, J.; De Paoli Lacerda, S.H.; McNeil, S.E. 2012: Nanoparticle size and surface charge determine effects of PAMAM dendrimers on human platelets in vitro. Molecular Pharmaceutics 9(3): 382-393
Walkey, C.D.; Olsen, J.B.; Guo, H.; Emili, A.; Chan, W.C.W. 2012: Nanoparticle size and surface chemistry determine serum protein adsorption and macrophage uptake. Journal of the American Chemical Society 134(4): 2139-2147
Venugopal, E.; Aswal, V.K.; Kumaraswamy, G. 2013: Nanoparticle size controls aggregation in lamellar nonionic surfactant mesophase. Langmuir 29(31): 9643-9650
Lee, S.; Bi, X.; Reed, R.B.; Ranville, J.F.; Herckes, P.; Westerhoff, P. 2014: Nanoparticle size detection limits by single particle ICP-MS for 40 elements. Environmental Science and Technology 48(17): 10291-10300
Gomez, M.Victoria.; Guerra, J.; Myers, V.Sue.; Crooks, R.M.; Velders, A.H. 2009: Nanoparticle size determination by (1)H NMR spectroscopy. Journal of the American Chemical Society 131(41): 14634-14635
Zhu, X.; Mason, T.G. 2014: Nanoparticle size distributions measured by optical adaptive-deconvolution passivated-gel electrophoresis. Journal of Colloid and Interface Science 435: 67-74
Stano, A.; Nembrini, C.; Swartz, M.A.; Hubbell, J.A.; Simeoni, E. 2012: Nanoparticle size influences the magnitude and quality of mucosal immune responses after intranasal immunization. Vaccine 30(52): 7541-7546
Tenzer, S.; Docter, D.; Rosfa, S.; Wlodarski, A.; Kuharev, Jörg.; Rekik, A.; Knauer, S.K.; Bantz, C.; Nawroth, T.; Bier, C.; Sirirattanapan, J.; Mann, W.; Treuel, L.; Zellner, R.; Maskos, M.; Schild, Hörg.; Stauber, R.H. 2011: Nanoparticle size is a critical physicochemical determinant of the human blood plasma corona: a comprehensive quantitative proteomic analysis. Acs Nano 5(9): 7155-7167
Hu, Z.; Zhang, H.; Zhang, Y.; Wu, R'an.; Zou, H. 2014: Nanoparticle size matters in the formation of plasma protein coronas on Fe3O4 nanoparticles. Colloids and Surfaces. B Biointerfaces 121: 354-361
Anonymous 2013: Nanoparticle size-based targeting of an anti-inflammatory peptide to treat osteoarthritis. Nanomedicine 8(3): 330
Xu, X.; Cristancho, D.E.; Costeux, Séphane.; Wang, Z-Gang. 2014: Nanoparticle solvation in polymer-CO2 mixtures. Journal of Physical Chemistry. B 118(28): 8002-8007
Mayoral, A.; Barron, H.; Estrada-Salas, R.; Vazquez-Duran, A.; José-Yacamán, M. 2010: Nanoparticle stability from the nano to the meso interval. Nanoscale 2(3): 335-342
Dutta, N.; Green, D. 2008: Nanoparticle stability in semidilute and concentrated polymer solutions. Langmuir 24(10): 5260-5269
Agostinelli, E.; Vianello, F.; Magliulo, G.; Thomas, T.; Thomas, T.J. 2015: Nanoparticle strategies for cancer therapeutics: Nucleic acids, polyamines, bovine serum amine oxidase and iron oxide nanoparticles (Review). International Journal of Oncology 46(1): 5-16
McDonagh, C.; Stranik, O.; Nooney, R.; Maccraith, B.D. 2009: Nanoparticle strategies for enhancing the sensitivity of fluorescence-based biochips. Nanomedicine 4(6): 645-656
Damgé, C.; Reis, C.Pinto.; Maincent, P. 2008: Nanoparticle strategies for the oral delivery of insulin. Expert Opinion on Drug Delivery 5(1): 45-68
Kim, H.Suk.; Lee, C.Hee.; Sudeep, P.K.; Emrick, T.; Crosby, A.J. 2010: Nanoparticle stripes, grids, and ribbons produced by flow coating. Advanced Materials 22(41): 4600-4604
Macfarlane, R.J.; Lee, B.; Jones, M.R.; Harris, N.; Schatz, G.C.; Mirkin, C.A. 2011: Nanoparticle superlattice engineering with DNA. Science 334(6053): 204-208
Chen, W.; Bian, A.; Agarwal, A.; Liu, L.; Shen, H.; Wang, L.; Xu, C.; Kotov, N.A. 2009: Nanoparticle superstructures made by polymerase chain reaction: collective interactions of nanoparticles and a new principle for chiral materials. Nano Letters 9(5): 2153-2159
Kowalczyk, B.; Walker, D.A.; Soh, S.; Grzybowski, B.A. 2010: Nanoparticle supracrystals and layered supracrystals as chemical amplifiers. Angewandte Chemie 49(33): 5737-5741
Ma, J.; Xu, R.; Sun, J.; Zhao, D.; Tong, J.; Sun, X. 2013: Nanoparticle surface and nanocore properties determine the effect on radiosensitivity of cancer cells upon ionizing radiation treatment. Journal of Nanoscience and Nanotechnology 13(2): 1472-1475
Biswas, N.; Rahman, A.; Datta, A.; Goswami, A.; Bramhachary, R.Lal. 2010: Nanoparticle surface as activation site. Journal of Nanoscience and Nanotechnology 10(11): 7083-7087
Chen, R.; Zhang, Y.; Sahneh, F.Darabi.; Scoglio, C.M.; Wohlleben, W.; Haase, A.; Monteiro-Riviere, N.A.; Riviere, J.E. 2014: Nanoparticle surface characterization and clustering through concentration-dependent surface adsorption modeling. Acs Nano 8(9): 9446-9456
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